KR102228878B1 - A method of executing a delivery management application, and a service server providing a delivery management service - Google Patents

Abstract

The present invention relates to a delivery management application on a device used by a courier and, more specifically, to a method of executing an application for management of delivered goods, and a service server providing a delivery management service. The method comprises: a delivery path loading step; a delivery information recognition step; and a delivery information output step.

Description

A method of running a delivery management application, and a service server providing delivery management services {A METHOD OF EXECUTING A DELIVERY MANAGEMENT APPLICATION, AND A SERVICE SERVER PROVIDING A DELIVERY MANAGEMENT SERVICE}

The present invention relates to a delivery management application on a device used by a delivery driver, more specifically, a method of executing an application for management of delivered goods, and a service server providing such delivery management service.

In recent years, as the online market is active, the demand for courier services is naturally increasing significantly, and in recent years, due to the spread of infectious diseases, the volume of uncontacted courier services in all areas of society is expected to continue to increase in the future.

On the other hand, unlike this increasing courier volume, it is difficult to obtain a courier driver who will perform the courier delivery business, and many courier companies are experiencing difficulties. In order to digest the excess parcel delivery with limited manpower, it will eventually be necessary to improve the efficiency and speed of the parcel delivery process.However, there is no significant improvement at this time, so the parcel delivery industry itself is still recognized as a very difficult business. .

In another aspect, the quality of the parcel service may be determined by how safely the parcel product is delivered and how quickly the parcel product is delivered. In other words, even from the perspective of users who use the parcel service, it is necessary to improve the efficiency and speed of the parcel delivery process in that the satisfaction level is high when the parcel ordered by them arrives quickly.

The present invention is to increase the efficiency and speed of the entire courier delivery process by focusing on the task of relocating the courier product at any time during the delivery process from the position of the courier driver, who is the main body of the delivery of courier products. The present invention was derived by focusing on such a problem, and invented to provide additional technical elements that can not be easily invented by those of ordinary skill in the art, as well as being able to solve the technical problems of salpin from the above. Became.

Korean Registered Patent Publication No. 10-1880040 (announced on July 19, 2018)

An object of the present invention is to make it possible to effectively rearrange parcel items in a parcel delivery vehicle, which is performed from time to time during the delivery process, and it is an object of the present invention to shorten the total delivery time and increase delivery efficiency through this.

In particular, an object of the present invention is to make it easy for anyone to use from a courier service driver to a veteran courier driver who has just started the courier business by adopting an easy output method so that courier drivers can intuitively rearrange parcel items.

In addition, in the present invention, when a delivery driver needs to hand over the quota to another delivery driver due to circumstances such as a traffic accident, it is possible to collectively take over the quota for delivery items, and by letting the customers know immediately, customers can use their goods. The purpose of this is to make inquiries to the correct courier service possible.

Meanwhile, the technical problems of the present invention are not limited to the technical problems mentioned above, and other technical problems that are not mentioned will be clearly understood by those skilled in the art from the following description.

In order to solve the above problems, a method of executing a delivery management application on a device according to the present invention includes: a delivery route loading step of causing the device to load a delivery route for at least two or more items; A delivery information recognition step of allowing the device to recognize delivery information for an arbitrary delivery product; A delivery information output step of causing a device to output at least one of information included in the recognized delivery information through an output means provided in the device; Includes.

In addition, in the method, the information output through the output means of the device may be characterized in that the recognized delivery order of the delivered product.

In addition, in the method, the delivery order output through the output means of the device may be a delivery order of the recognized delivery product at a time when delivery information is recognized by the device.

In addition, in the method, the outputting of the delivery information may be a step of outputting a delivery order of the recognized delivery product through a speaker provided in the device.

In addition, in the method, the outputting of the delivery information may be a step of outputting a delivery order of the recognized delivery product through a display provided in the device.

In addition, in the method, prior to the loading of the delivery route, a delivery list generation step of causing the device to generate a delivery list for at least two or more delivery items; A delivery destination display step of causing the device to display each delivery destination of the delivery items included in the delivery list on a map; And a delivery route generation step of causing the device to generate a delivery route.

In addition, in the method, it may further comprise the step of transmitting at least one of information included in the recognized delivery information to a device other than the device and outputting the information from the other device. have.

In addition, in the method, the other device may be at least one of a display or a speaker provided in the delivery vehicle.

In addition, in the method, the device receiving a delivery list or a delivery route for delivery items of other delivery drivers; The device may further include a step of creating a new delivery route after adding the received delivery list or delivery items included in the delivery route to the delivery items included in the previously loaded delivery route. .

Meanwhile, in a computer-readable storage medium storing instructions for executing a delivery management application on a device having a central processing unit and a memory according to another embodiment of the present invention, the instructions for executing the delivery management application include: A, a command for loading a delivery route for at least two or more items to be shipped; A command for causing the device to recognize delivery information for an arbitrary delivery item; And a command for causing the device to output at least one of information included in the recognized delivery information through an output means provided in the device.

According to the present invention, when the delivery items are rearranged during the delivery process, delivery information output from the device, particularly information on the delivery order, can be obtained, so that the rearrangement can be performed easily and quickly.

In addition, accordingly, the total delivery time can be shortened, and as a result, it is possible to achieve the effect of reducing resources and increasing efficiency in the overall delivery service.

In addition, according to the present invention, since information on the delivery order is provided using a method that can be intuitively recognized by courier drivers, there is an effect that anyone can easily use the application.

In addition, according to the present invention, even when an unexpected situation such as a traffic accident occurs and a delivery item that has been suddenly allocated must be handed over, there is an effect of preventing a disruption in the delivery service by enabling a batch handover process. In addition, it is possible to check who is the person in charge who is currently delivering their parcels, thereby enhancing customer convenience.

Meanwhile, the effects of the present invention are not limited to those mentioned above, and other technical effects that are not mentioned will be clearly understood by those skilled in the art from the following description.

1 shows a conceptual diagram of a delivery management system according to the present invention.
2 is a diagram illustrating a process of executing and using a delivery management application on a delivery device's device.
3 and 4 illustrate a state in which a device outputs delivery information to a delivery driver through a speaker or a display.
5 shows an embodiment in which delivery information for each is output when a device recognizes a plurality of delivery items in order.
6 shows an embodiment in which delivery information for each is output when a device recognizes multiple delivery items at the same time.
7 is a diagram illustrating an embodiment in which two or more recognized shipments are displayed in numerical order on a device and guided.
FIG. 8 is a diagram illustrating a delivery order displayed for a plurality of delivery items loaded on a delivery vehicle.
9 is a view showing a state in which a plurality of delivery goods loaded in the delivery vehicle are divided and displayed by zones.
FIG. 10 is a diagram illustrating a delivery order displayed for each delivery item when any one of the areas divided in FIG. 9 is selected.
11 is a diagram illustrating a state in which delivery goods allocated to other delivery drivers are collectively handed over to other delivery drivers.

Details of the objects and technical configurations of the present invention, as well as operational effects thereof, will be more clearly understood by the following detailed description based on the accompanying drawings in the specification of the present invention. An embodiment according to the present invention will be described in detail with reference to the accompanying drawings.

The embodiments disclosed herein should not be construed or used as limiting the scope of the present invention. It is natural for those skilled in the art that the description including the embodiments of the present specification has various applications. Accordingly, certain embodiments described in the detailed description of the present invention are illustrative for better explanation of the present invention and are not intended to limit the scope of the present invention to the embodiments.

The functional blocks shown in the drawings and described below are only examples of possible implementations. In other implementations, other functional blocks may be used without departing from the spirit and scope of the detailed description. Further, although one or more functional blocks of the present invention are represented as individual blocks, one or more of the functional blocks of the present invention may be a combination of various hardware and software configurations that perform the same function.

In addition, the expression that includes certain elements is an expression of "open type" and simply refers to the existence of the corresponding elements, and should not be understood as excluding additional elements.

Furthermore, when a component is referred to as being "connected" or "connected" to another component, it should be understood that it may be directly connected or connected to the other component, but other components may exist in the middle. do.

Hereinafter, each exemplary embodiment of the present invention will be described with reference to the drawings.

First, FIG. 1 shows an environment in which a delivery management application according to the present invention can be executed, and specifically, a delivery management system including a device 100 and a service server 200 of a delivery driver is briefly illustrated. . According to FIG. 1, the system may include a device 100 used by a delivery driver, and a service server 200 that transmits and receives data with the device 100 of the delivery driver and provides necessary information.

Prior to the full description, first, the device 100 and the service server 200 mentioned in this detailed description may have the following hardware characteristics.

First, with respect to the device 100, the device 100 referred to in this detailed description refers to a device that is possessed or carried by a courier that is a user, and includes a portable terminal such as a smartphone, PDA, or tablet PC. May be included, and in addition, a device manufactured by specializing functions necessary for a parcel service such as scanning parcel goods may be included. When viewing such a device 100 from the side of the apparatus, it is assumed that the device 100 includes a central processing unit (CPU) and a memory. The central processing unit may also be referred to as a controller, a microcontroller, a microprocessor, and a microcomputer. In addition, the central processing unit may be implemented by hardware, firmware, software, or a combination thereof. When implemented using hardware, an application specific integrated circuit (ASIC) or a digital signal processor (DSP) , DSPD (digital signal processing device), PLD (programmable logic device), FPGA (field programmable gate array), etc., when implemented using firmware or software, modules, procedures or functions that perform the above functions or operations, etc. Firmware or software may be configured to include. In addition, the memory includes ROM (Read Only Memory), RAM (Random Access Memory), EPROM (Erasable Programmable Read Only Memory), EEPROM (Electrically Erasable Programmable Read-Only Memory), flash memory, SRAM (Static RAM), It may be implemented as a hard disk drive (HDD), a solid state drive (SSD), or the like.

For reference, in this detailed description, it is assumed that the device 100 of the delivery driver is a smart phone or a tablet PC to aid understanding of the invention. In this case, the device 100 may include a display and a touch-sensitive surface, and additionally, one or more other physical user input means such as a physical keyboard, a mouse and/or a joystick, and a scanning means may be further connected. . In addition, the device 100 may further include a means for detecting and recording sound or voice. Meanwhile, various applications executed on the device 100 may optionally use at least one universal physical user input means such as a touch-sensitive surface. One or more functions of the touch-sensitive surface as well as the corresponding information displayed on the terminal can be optionally adjusted or changed from one application to the next and/or within individual applications. In this way, the universal physical architecture of the device (such as a touch-sensitive surface) can, optionally, support a variety of applications using user interfaces that are intuitive and clear to the user.

On the other hand, the service server 200 is a configuration that provides a program (application) necessary to actually implement the service provision according to the present invention, and provides information corresponding to the information request from the device 100, and furthermore, a plurality of It is also a configuration that processes or stores various types of data received from the devices 100 of. The form of the service server 200 may be at least one server PC managed by a specific operator, or a cloud server provided by another company, that is, a cloud server that the operator can use after signing up for membership. have. In particular, when the service server 200 is implemented as a server PC, the service server 200 may include a central processing unit and a memory, and this has been described in detail in the process of describing the device, so the description will be omitted here. .

With reference to FIG. 1 again, a process in which the delivery management application is executed in the device 100 will be described.

The delivery driver's device 100 executes an application through steps as listed in FIG. 2, and at this time, the entity executing the hardware called the device 100 is a command group or an application program installed in the device 100. I can. Referring to FIG. 2, in the device 100, a delivery route loading step (S201) of loading a delivery route for at least two or more items, and a delivery information recognition step ( S202), a delivery information output step (S203) of outputting at least one of information included in the recognized delivery information through an output means provided in the device may be performed.

In step S201, after the execution of the delivery management application is started, the delivery path for the plurality of delivered goods is loaded.In this step, a delivery list for the plurality of delivered goods has already been created, and the delivery order of each delivery item It can be assumed that the delivery route considered until has been created. That is, prior to the start of step S201, the delivery list generation step of causing the device to create a delivery list for at least two or more shipments, and the delivery path generation step of creating a delivery route may have been performed. Accordingly, a delivery destination display step of displaying each delivery destination of the delivery items included in the delivery list on a map may be further included. For example, while a courier operator performs a loading operation, the identification code (bar code, QR code, etc.) attached to the surface of the package is recognized.In this recognition process, delivery information such as the type of product, delivery address, and recipient can be obtained. In this way, as the delivery information is acquired, a delivery list may be created. In addition, after the delivery list is generated, the delivery destinations of each delivery item are listed through a series of calculation processes to generate a delivery route.

Meanwhile, the term loading in step S201 can be understood as a state in which data or information to be processed is loaded on a memory or other storage means, and is placed in a state in which computing processing is possible by a processor (CPU). It may be understood as. In addition, in step S201, the delivery route is described in a loaded state. In this case, the meaning of the delivery route may mean a route that must be passed for delivery of the delivered items, but is not necessarily limited thereto. It should be understood that if it includes information in a state in which the delivery order of is determined, it may be included in the category of the delivery information.

After step S201, a delivery information recognition step (S202) in which the device 100 recognizes delivery information for an arbitrary delivery item may be performed. In simple terms, this step can be understood as a step in which the delivery engineer completes all the loading and unloading work of the parcel, before starting the delivery or taking pictures of the parcels one by one during the delivery. In other words, even in the loading and unloading process, the courier driver considers the order of disembarkation and arranges it in its own order when loading it in the delivery vehicle. In consideration of the delivery route in the delivery vehicle, the arrangement in the loading box of the delivery vehicle is re-arranged, and the items delivered to the next delivery destination are often rearranged at each stop during the delivery. In step S201, after the list-up of the delivered items and the delivery order (or delivery route) for each delivery item is determined, the delivery driver re-recognizes each delivery product using his device 100. It can be understood as the step of letting go, that is, taking pictures of the parcel again.

In step S202, if the device 100 of the delivery driver recognizes the identification code attached to the surface of the delivery product, there is no limitation in the means. For example, when the device 100 is a smartphone, the surface of the delivery product Various methods can be used, including reading the invoice attached to the invoice, more precisely the barcode or QR code printed on the invoice. In addition, the object recognized by the device 100 does not necessarily include only identification codes such as barcodes and QR codes, and if the parcel items have a unique shape, the parcel items such as the shape and the color of the parcel items can be identified. If there is an element, it will be said that there is no limit to the recognition object. In addition, when the device 100 is capable of RF communication, each package may be recognized by recognizing an RFID tag provided in the package.

In step S203, when a certain parcel product and delivery information corresponding thereto are recognized in step S202, at least one of various pieces of information included in the delivery information is transmitted through an output means provided in the device 100. This is the output step. At this time, the type of the output means is not limited as long as it is a means that enables the delivery driver to recognize arbitrary output information such as a speaker or a display.

As an easy example of step S203, when the delivery driver takes the identification code of a specific delivery product, at least one information related to the delivery product, for example, delivery order, delivery address, recipient, etc., is transmitted through the speaker or screen of the device 100. For example, what was made to be printed. As mentioned earlier, the courier operator rearranges the courier items to be delivered from time to time before or during the delivery in the vehicle loading box.In particular, the task of arranging the next items to be delivered from the courier vehicle loading box to the side close to the door in order is necessary. It happens very often. Step S203 can be usefully utilized when performing this task. If the delivery engineer recognizes an arbitrary delivery item with his device 100, the device 100 uses the speaker to "work", "three", " By telling the delivery order, such as "Lee" and "Oh," the delivery engineer helps when arranging the packaged goods. Conventionally, such a work has been accomplished by a marking method such as a courier engineer writing down the order on the outer surface of the product with a pen.

3 and 4 illustrate an embodiment of outputting delivery information through a speaker and outputting delivery information through a display screen, respectively. The output of the delivery information in FIGS. 3 and 4 may be performed at the moment the delivery driver recognizes the identification code on the surface of the delivery product with the device 100, for example, the delivery driver scans the delivery product with the device 100 When done, the delivery order can be output on the speaker or display screen at the same time as identification. In addition, since it is very important to shorten the time for repetitive work even a little in the courier industry, reflecting this, the device 100 recognizes the parcel product and at the same time the delivery order is very short, for example, 0.1 seconds to 0.3 seconds. It can be implemented to be output for a period of time between seconds.

Meanwhile, FIG. 5 is to explain another function of the delivery management application. In FIG. 5, an embodiment in which a plurality of parcel products are sequentially recognized (scanned) at a time and then a delivery order is output according to the recognized order. It is shown. In general, there are several parcels per delivery area, and these parcels are often arranged in similar positions within the loading box. There is an effect of allowing the delivery engineer to rearrange the delivery items at once by recognizing (scanning) the delivery items at once and outputting the delivery order of the delivery items at once. FIG. 5 illustrates an embodiment in which the device 100 sequentially scans the delivery items 50A, 50B, 50C, and 50D and immediately outputs the delivery order of each delivery item to a speaker. Meanwhile, it is understood that the delivery order can be output not only through the speaker but also through the display screen.

On the other hand, FIG. 6 is a diagram for explaining another function of the delivery management application. In FIG. 6, after simultaneously recognizing (scanning) a plurality of parcel items, an embodiment of outputting the delivery order of the recognized delivery items through a speaker is shown. Is shown. As mentioned earlier, the method of identifying parcel items involves scanning an identification code such as a barcode or QR code.In particular, an identification code in the form of a two-dimensional code such as a QR code can be read at the same time with only one scanning action. It is characterized in that it can be. The embodiment of FIG. 6 utilizes this, and the device 100 recognizes all of the delivered items 50E, 50F, 50G, and 50H as a single scanning action, and then outputs the delivery order of each delivered item to a speaker. An example is shown. However, unlike FIG. 5, in the embodiment of FIG. 6, since there is no order in which parcels are scanned, preferably, when the speaker is output, another information for identifying each packaged product rather than outputting only the delivery order of each packaged product. And delivery order can be printed together. For example, for the delivery items in FIG. 6, the recipient name (name) such as "Kim OO, number 2", "ABC company, number 1", "Lee OO, number 3", "DEF company, number 4", etc. By outputting the order of delivery and delivery in succession, the courier can confirm the recipient of the invoice and rearrange the delivered items. For reference, this is only one embodiment, and of course, even in the embodiment of FIG. 6, the device 100 may be implemented to output only the delivery order for several delivery items.

FIG. 7 shows another embodiment of implementing step S203. In FIG. 7, when the delivery items are identified through the device 100, the actual products are displayed on the display screen and the delivery of each delivery item on the screen. An embodiment in which the order is indicated is shown.

The embodiment of FIG. 7 enables a delivery driver to intuitively grasp the order of delivery of each delivery item while directly viewing the screen of his device 100, and thus, simply the delivery order as in the method of FIGS. 3 to 6 Compared to outputting a speaker or a display, information for rearranging shipments may be more effectively provided.

When looking at a specific embodiment, the courier driver runs the delivery management application on his device 100 and then starts photographing the camera for scanning toward the delivery items loaded in the delivery vehicle, and is acquired during shooting in real time. The identification codes of each delivery item are used to obtain individual delivery information, so that the delivery order of the delivery product in which the identification code is scanned on the screen currently being photographed can be displayed on the corresponding product.

On the other hand, in the embodiment of FIG. 7, it is not possible to search the delivery information of the delivery product only by scanning the identification code attached to the surface of the delivery product, and delivery information ( Delivery order) can be implemented to enable inquiry. That is, if the shape of each delivery product is different enough to distinguish each delivery product even if it is not an identification code, the appearance (shape) of each delivery product can be analyzed from the image captured by the device 100. Through this, it can be implemented so that the delivery information (delivery order) of each delivered item can be inquired.

On the other hand, in the embodiment of FIG. 7, the screen displayed by the device 100, that is, the shipment item displayed on the display screen and the delivery order for each item may be shared with other devices. For example, the display screen of the device 100 may be shared through a wired or wireless network to a separate monitor device (not shown) installed in the loading box of the delivery vehicle, and the delivery driver photographs the inside of the loading box. After mounting them, you can rearrange them by checking the delivery order of each delivery item through a monitor device having a larger screen size.

On the other hand, in the embodiment of FIG. 7, the device 100 may not necessarily be a portable terminal such as a smartphone, but may be a photographing terminal (not shown) installed in a loading box of a delivery vehicle. That is, the device 100 is pre-installed in the delivery vehicle, so that at least one camera can photograph the inside of the loading box, and recognizes the identification code of each delivery item from the image obtained by shooting, and the corresponding delivery information ( Delivery order) can be retrieved and displayed on a monitor device-the monitor device may also be installed in a loading box. In this case, the delivery driver will be able to rearrange while viewing the delivery order for each delivery item displayed on the screen of the monitor device provided in the loading box.

FIG. 8 shows a screen photographing a loading box of an actual delivery vehicle from the door, and an embodiment in which the delivery order for each delivery product is displayed in numbers. The screen shown in FIG. 8 can be displayed on a portable device and on a separate monitor device installed in a loading box, as mentioned above, so that the delivery engineer can refer to it.

9 and 10 show an embodiment of a form different from that of the previous embodiment of FIG. 7. In the embodiment of FIG. 9, a plurality of delivery items are primarily divided and displayed by area, and When a specific area is selected, the order of delivery within the area is displayed.

First, referring to FIG. 9, it can be seen that a plurality of delivery items are divided into zone 1 and zone 2 and displayed on the screen of scanning (photographing) the inside of the loading box. The shipments included in each zone may indicate, for example, shipments scheduled to be delivered on foot when a stop is made, but the criteria for which shipments are included in the zone may vary. As can be seen in FIG. 9, the delivered goods included in each area can be displayed by color, line, and other means that can be easily recognized by the courier, and each area is operated by the courier's device 100 (click, etc.) Can be selected according to.

More specifically, the courier driver executes the delivery management application on his device 100 and then scans the loaded delivery items, and at this time, the identification code (or other items that can identify the delivery product) It may be implemented such that delivery information is inquired for parcels that have been recognized as a), and that the items scheduled to be delivered within the same area are displayed in the same area according to the inquired delivery information. In this case, preferably, it is possible to implement the same indication of the area only for the shipments for which the identification code is recognized, and not to mark the area for the shipments for which the identification code is not recognized. However, the method of marking the area is not limited to the above example, and even if the identification code is not recognized, it may be implemented so that the area is marked according to the tendency of the areas to which the shipping items existing around the package belong. have. For example, even if it is difficult to recognize an identification code for a certain shipment item, if all of the shipment information search results of other shipment items existed in the vicinity of the shipment item were determined to be shipment items belonging to Zone 2, it was difficult to recognize. It is judged that the shipments are likely to belong to Zone 2 as well, so all of them can be marked as shipments of Zone 2. This is because of the nature of the courier business, delivery items delivered within a similar area are placed in a similar location when loading.

FIG. 10 shows a screen that appears when one of the area marks in FIG. 9 is selected, for example, when 2 areas are selected. When a delivery driver clicks a specific area, delivery within the area The order of delivery of the items to be delivered may be displayed as shown in the drawing. Since this is similar to that described in FIG. 7, a detailed description will be omitted here.

11 is for explaining another function of the delivery management application or delivery management service according to the present invention. This is to explain the function that can take over delivery information collectively to other courier operators in a situation where it should be done.

Various incidents may occur during the delivery process, and in particular, if circumstances arise such that it is no longer possible to perform the same-day courier delivery, the business must be handed over to another courier. In the delivery management application according to the present invention, a courier driver in which an accident has occurred may provide a menu to transfer his or her parcel items to another courier driver, and at this time, the delivery driver in the vicinity through the service server 200 Can be handed over to them. That is, the delivery engineer in which the accident has occurred can apply for a transfer to the service server 200 on the device 100, and the service server 200 refers to the proximity of the distance and the appropriateness of the delivery volume among the delivery drivers under management. As a result, a random delivery driver can be searched, and the quantity of delivery subject to be transferred can be delivered to the searched delivery driver.

On the other hand, on the device 100 of the delivery driver who has received the delivery quantity, the delivery route may be recalculated and generated on the delivery management application.

We have looked at a method of executing an abnormal delivery management application and a system necessary for this. Meanwhile, the present invention is not limited to the specific embodiments and application examples described above, and various modifications are implemented by those of ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Of course, these modifications should not be understood as being distinguished from the technical idea or perspective of the present invention.

50 parcels
100 devices
200 service servers

Claims (5)

delete delete delete A method of running a delivery management application on a device having a central processing unit and a memory,
A delivery route loading step of causing the device to load a delivery route for at least two or more items to be delivered;
A delivery information recognition step of allowing the device to recognize delivery information for an arbitrary delivery item;
A delivery information output step of causing a device to output at least one of information included in the recognized delivery information through an output means provided in the device, the output means being a display provided in the device;
Including,
The delivery information recognition step is a step of allowing the device to recognize delivery information for a plurality of delivery items by scanning identification codes on a plurality of delivery items at once,
The shipping information output step includes displaying the shipment items included in the same area among the plurality of shipment items by means of an identifiable means, and displaying a delivery order for at least some of the shipment items. And
The delivery order output through the output means of the device is the delivery order of the recognized delivery product at a time when delivery information is recognized by the device,
In the delivery information output step, for a delivery product whose identification code is not recognized by the scanning among the plurality of delivery products, the area is marked according to the tendency of the area to which the delivery products existing around the delivery product belong Characterized in that,
How to run a delivery management application on a device.
The method of claim 4,
The delivery information output step,
When a certain area is selected by the user, the step of displaying a delivery order for the items delivered in the selected area; characterized in that it further comprises,
How to run a delivery management application on a device.

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